/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

package com.cloud.hypervisor.kvm.resource;

import java.io.File;
import java.util.Arrays;
import java.util.List;
import java.util.UUID;

import junit.framework.TestCase;

import com.cloud.hypervisor.kvm.resource.LibvirtVMDef.ChannelDef;
import com.cloud.hypervisor.kvm.resource.LibvirtVMDef.DiskDef;
import com.cloud.hypervisor.kvm.resource.LibvirtVMDef.MemBalloonDef;
import com.cloud.hypervisor.kvm.resource.LibvirtVMDef.SCSIDef;
import org.apache.cloudstack.utils.qemu.QemuObject;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.mockito.junit.MockitoJUnitRunner;


@RunWith(MockitoJUnitRunner.class)
public class LibvirtVMDefTest extends TestCase {

    final String memInfo = "MemTotal:        5830236 kB\n" +
            "MemFree:          156752 kB\n" +
            "Buffers:          326836 kB\n" +
            "Cached:          2606764 kB\n" +
            "SwapCached:            0 kB\n" +
            "Active:          4260808 kB\n" +
            "Inactive:         949392 kB\n";

    @Test
    public void testInterfaceTypeUserWithNetwork() {
        LibvirtVMDef.InterfaceDef interfaceDef = new LibvirtVMDef.InterfaceDef();
        interfaceDef.defUserNet(LibvirtVMDef.InterfaceDef.NicModel.VIRTIO, "00:11:22:aa:bb:dd", "192.168.100.0", 24);

        String expected = "<interface type='user'>\n" +
                "<mac address='00:11:22:aa:bb:dd'/>\n" +
                "<model type='virtio'/>\n" +
                "<ip family='ipv4' address='192.168.100.0' prefix='24'/>\n" +
                "</interface>\n";

        assertEquals(expected, interfaceDef.toString());
    }

    @Test
    public void testInterfaceTypeUserWithoutNetwork() {
        LibvirtVMDef.InterfaceDef interfaceDef = new LibvirtVMDef.InterfaceDef();
        interfaceDef.defUserNet(LibvirtVMDef.InterfaceDef.NicModel.VIRTIO, "00:11:22:aa:bb:dd");

        String expected = "<interface type='user'>\n" +
                "<mac address='00:11:22:aa:bb:dd'/>\n" +
                "<model type='virtio'/>\n" +
                "</interface>\n";

        assertEquals(expected, interfaceDef.toString());
    }

    @Test
    public void testInterfaceEthernet() {
        LibvirtVMDef.InterfaceDef ifDef = new LibvirtVMDef.InterfaceDef();
        ifDef.defEthernet("targetDeviceName", "00:11:22:aa:bb:dd", LibvirtVMDef.InterfaceDef.NicModel.VIRTIO);

        String expected =
            "<interface type='ethernet'>\n"
                    + "<target dev='targetDeviceName'/>\n"
                    + "<mac address='00:11:22:aa:bb:dd'/>\n"
                    + "<model type='virtio'/>\n"
                    + "<link state='up'/>\n"
                    + "</interface>\n";

        assertEquals(expected, ifDef.toString());
    }

    @Test
    public void testInterfaceDirectNet() {
        LibvirtVMDef.InterfaceDef ifDef = new LibvirtVMDef.InterfaceDef();
        ifDef.defDirectNet("targetDeviceName", null, "00:11:22:aa:bb:dd", LibvirtVMDef.InterfaceDef.NicModel.VIRTIO, "private");

        String expected =
            "<interface type='" + LibvirtVMDef.InterfaceDef.GuestNetType.DIRECT + "'>\n"
                    + "<source dev='targetDeviceName' mode='private'/>\n"
                    + "<mac address='00:11:22:aa:bb:dd'/>\n"
                    + "<model type='virtio'/>\n"
                    + "<link state='up'/>\n"
                    + "</interface>\n";

        assertEquals(expected, ifDef.toString());
    }

    @Test
    public void testInterfaceBridgeSlot() {
        LibvirtVMDef.InterfaceDef ifDef = new LibvirtVMDef.InterfaceDef();
        ifDef.defBridgeNet("targetDeviceName", null, "00:11:22:aa:bb:dd", LibvirtVMDef.InterfaceDef.NicModel.VIRTIO);
        ifDef.setSlot(16);

        String expected =
                "<interface type='" + LibvirtVMDef.InterfaceDef.GuestNetType.BRIDGE + "'>\n"
                        + "<source bridge='targetDeviceName'/>\n"
                        + "<mac address='00:11:22:aa:bb:dd'/>\n"
                        + "<model type='virtio'/>\n"
                        + "<link state='up'/>\n"
                        + "<address type='pci' domain='0x0000' bus='0x00' slot='0x10' function='0x0'/>\n"
                        + "</interface>\n";

        assertEquals(expected, ifDef.toString());

        ifDef.setLinkStateUp(false);
        ifDef.setDevName("vnet11");

        expected =
                "<interface type='" + LibvirtVMDef.InterfaceDef.GuestNetType.BRIDGE + "'>\n"
                        + "<source bridge='targetDeviceName'/>\n"
                        + "<target dev='vnet11'/>\n"
                        + "<mac address='00:11:22:aa:bb:dd'/>\n"
                        + "<model type='virtio'/>\n"
                        + "<link state='down'/>\n"
                        + "<address type='pci' domain='0x0000' bus='0x00' slot='0x10' function='0x0'/>\n"
                        + "</interface>\n";

        assertEquals(expected, ifDef.toString());
    }

    @Test
    public void testInterfaceWithMultiQueueAndPacked() {
        LibvirtVMDef.InterfaceDef ifDef = new LibvirtVMDef.InterfaceDef();
        ifDef.defBridgeNet("targetDeviceName", null, "00:11:22:aa:bb:dd", LibvirtVMDef.InterfaceDef.NicModel.VIRTIO);
        ifDef.setMultiQueueNumber(6);

        LibvirtVMDef.setGlobalQemuVersion(5000000L);
        LibvirtVMDef.setGlobalLibvirtVersion(6400000L);

        String expected =
                "<interface type='" + LibvirtVMDef.InterfaceDef.GuestNetType.BRIDGE + "'>\n"
                        + "<source bridge='targetDeviceName'/>\n"
                        + "<mac address='00:11:22:aa:bb:dd'/>\n"
                        + "<model type='virtio'/>\n"
                        + "<driver queues='6'/>\n"
                        + "<link state='up'/>\n"
                        + "</interface>\n";
        assertEquals(expected, ifDef.toString());

        ifDef.setPackedVirtQueues(true);
        expected =
                "<interface type='" + LibvirtVMDef.InterfaceDef.GuestNetType.BRIDGE + "'>\n"
                        + "<source bridge='targetDeviceName'/>\n"
                        + "<mac address='00:11:22:aa:bb:dd'/>\n"
                        + "<model type='virtio'/>\n"
                        + "<driver queues='6' packed='on'/>\n"
                        + "<link state='up'/>\n"
                        + "</interface>\n";
        assertEquals(expected, ifDef.toString());

        ifDef.setMultiQueueNumber(null);
        expected =
                "<interface type='" + LibvirtVMDef.InterfaceDef.GuestNetType.BRIDGE + "'>\n"
                        + "<source bridge='targetDeviceName'/>\n"
                        + "<mac address='00:11:22:aa:bb:dd'/>\n"
                        + "<model type='virtio'/>\n"
                        + "<driver packed='on'/>\n"
                        + "<link state='up'/>\n"
                        + "</interface>\n";
        assertEquals(expected, ifDef.toString());

        LibvirtVMDef.setGlobalLibvirtVersion(300000L);
        expected =
                "<interface type='" + LibvirtVMDef.InterfaceDef.GuestNetType.BRIDGE + "'>\n"
                        + "<source bridge='targetDeviceName'/>\n"
                        + "<mac address='00:11:22:aa:bb:dd'/>\n"
                        + "<model type='virtio'/>\n"
                        + "<link state='up'/>\n"
                        + "</interface>\n";
        assertEquals(expected, ifDef.toString());
        }

    @Test
    public void testCpuModeDef() {
        LibvirtVMDef.CpuModeDef cpuModeDef = new LibvirtVMDef.CpuModeDef();
        cpuModeDef.setMode("custom");
        cpuModeDef.setModel("Nehalem");

        String expected1 = "<cpu mode='custom' match='exact'><model fallback='allow'>Nehalem</model></cpu>";

        assertEquals(expected1, cpuModeDef.toString());

        cpuModeDef.setMode("host-model");
        String expected2 = "<cpu mode='host-model'><model fallback='allow'></model></cpu>";

        assertEquals(expected2, cpuModeDef.toString());

        cpuModeDef.setMode("host-passthrough");
        String expected3 = "<cpu mode='host-passthrough'></cpu>";
        assertEquals(expected3, cpuModeDef.toString());

    }

    @Test
    public void testCpuModeDefCpuFeatures() {
        LibvirtVMDef.CpuModeDef cpuModeDef = new LibvirtVMDef.CpuModeDef();
        cpuModeDef.setMode("custom");
        cpuModeDef.setModel("Nehalem");

        String expected_start = "<cpu mode='custom' match='exact'><model fallback='allow'>Nehalem</model>";
        String expected_end = "</cpu>";

        List<String> features1 = Arrays.asList("feature1", "feature2");
        cpuModeDef.setFeatures(features1);
        String expected1 = "<feature policy='require' name='feature1'/><feature policy='require' name='feature2'/>";
        assertEquals(expected_start + expected1 + expected_end, cpuModeDef.toString());

        List<String> features2 = Arrays.asList("-feature1", "-feature2");
        cpuModeDef.setFeatures(features2);
        String expected2 = "<feature policy='disable' name='feature1'/><feature policy='disable' name='feature2'/>";
        assertEquals(expected_start + expected2 + expected_end, cpuModeDef.toString());

        List<String> features3 = Arrays.asList("-feature1", "feature2");
        cpuModeDef.setFeatures(features3);
        String expected3 = "<feature policy='disable' name='feature1'/><feature policy='require' name='feature2'/>";
        assertEquals(expected_start + expected3 + expected_end, cpuModeDef.toString());
    }

    @Test
    public void testDiskDef() {
        String filePath = "/var/lib/libvirt/images/disk.qcow2";
        String diskLabel = "vda";

        DiskDef disk = new DiskDef();
        DiskDef.DiskBus bus = DiskDef.DiskBus.VIRTIO;
        DiskDef.DiskFmtType type = DiskDef.DiskFmtType.QCOW2;
        DiskDef.DiskCacheMode cacheMode = DiskDef.DiskCacheMode.WRITEBACK;

        disk.defFileBasedDisk(filePath, diskLabel, bus, type);
        disk.setCacheMode(cacheMode);

        assertEquals(filePath, disk.getDiskPath());
        assertEquals(diskLabel, disk.getDiskLabel());
        assertEquals(bus, disk.getBusType());
        assertEquals(DiskDef.DeviceType.DISK, disk.getDeviceType());

        String xmlDef = disk.toString();
        String expectedXml = "<disk  device='disk' type='file'>\n<driver name='qemu' type='" + type.toString() + "' cache='" + cacheMode.toString() + "' />\n" +
                             "<source file='" + filePath + "'/>\n<target dev='" + diskLabel + "' bus='" + bus.toString() + "'/>\n</disk>\n";

        assertEquals(expectedXml, xmlDef);
    }

    @Test
    public void testDiskDefWithEncryption() {
        String passphraseUuid = UUID.randomUUID().toString();
        DiskDef disk = new DiskDef();
        DiskDef.LibvirtDiskEncryptDetails encryptDetails = new DiskDef.LibvirtDiskEncryptDetails(passphraseUuid, QemuObject.EncryptFormat.LUKS);
        disk.defBlockBasedDisk("disk1", 1, DiskDef.DiskBus.VIRTIO);
        disk.setLibvirtDiskEncryptDetails(encryptDetails);
        String expectedXML = "<disk  device='disk' type='block'>\n" +
            "<driver name='qemu' type='raw' cache='none' />\n" +
            "<source dev='disk1'/>\n" +
            "<target dev='vdb' bus='virtio'/>\n" +
            "<encryption format='luks'>\n" +
            "<secret type='passphrase' uuid='" + passphraseUuid + "' />\n" +
            "</encryption>\n" +
            "</disk>\n";
        assertEquals(expectedXML, disk.toString());
    }

    @Test
    public void testDiskDefWithBlockIO() {
        String filePath = "/var/lib/libvirt/images/disk.qcow2";
        String diskLabel = "vda";

        DiskDef disk = new DiskDef();
        DiskDef.DiskBus bus = DiskDef.DiskBus.VIRTIO;
        DiskDef.DiskFmtType type = DiskDef.DiskFmtType.QCOW2;
        DiskDef.DiskCacheMode cacheMode = DiskDef.DiskCacheMode.WRITEBACK;

        disk.defFileBasedDisk(filePath, diskLabel, bus, type);
        disk.setCacheMode(cacheMode);
        disk.setLogicalBlockIOSize(DiskDef.BlockIOSize.SIZE_4K);

        assertEquals(filePath, disk.getDiskPath());
        assertEquals(diskLabel, disk.getDiskLabel());
        assertEquals(bus, disk.getBusType());
        assertEquals(DiskDef.DeviceType.DISK, disk.getDeviceType());

        String expectedXmlLogical = "<disk  device='disk' type='file'>\n<driver name='qemu' type='" + type.toString() + "' cache='" + cacheMode.toString() + "' />\n" +
                "<source file='" + filePath + "'/>\n<target dev='" + diskLabel + "' bus='" + bus.toString() + "'/>\n<blockio logical_block_size='4096' />\n</disk>\n";

        assertEquals(expectedXmlLogical, disk.toString());

        String expectedXmlPhysical = "<disk  device='disk' type='file'>\n<driver name='qemu' type='" + type.toString() + "' cache='" + cacheMode.toString() + "' />\n" +
                "<source file='" + filePath + "'/>\n<target dev='" + diskLabel + "' bus='" + bus.toString() + "'/>\n<blockio physical_block_size='4096' />\n</disk>\n";

        disk.setLogicalBlockIOSize(null);
        disk.setPhysicalBlockIOSize(DiskDef.BlockIOSize.SIZE_4K);
        assertEquals(expectedXmlPhysical, disk.toString());

        disk.setLogicalBlockIOSize(DiskDef.BlockIOSize.SIZE_512);
        String expectedXml = "<disk  device='disk' type='file'>\n<driver name='qemu' type='" + type.toString() + "' cache='" + cacheMode.toString() + "' />\n" +
                "<source file='" + filePath + "'/>\n<target dev='" + diskLabel + "' bus='" + bus.toString() + "'/>\n<blockio logical_block_size='512' physical_block_size='4096' />\n</disk>\n";
        assertEquals(expectedXml, disk.toString());
    }

    @Test
    public void testDiskDefWithGeometry() {
        DiskDef disk = new DiskDef();
        disk.defBlockBasedDisk("disk1", 1, DiskDef.DiskBus.VIRTIO);
        disk.setGeometry(new DiskDef.DiskGeometry(16383, 16, 63));
        String expectedXML = "<disk  device='disk' type='block'>\n" +
                "<driver name='qemu' type='raw' cache='none' />\n" +
                "<source dev='disk1'/>\n" +
                "<target dev='vdb' bus='virtio'/>\n" +
                "<geometry cyls='16383' heads='16' secs='63'/>\n" +
                "</disk>\n";
        assertEquals(expectedXML, disk.toString());
    }

    @Test
    public void testDiskDefWithMultipleHosts() {
        String path = "/mnt/primary1";
        String host = "10.11.12.13,10.11.12.14,10.11.12.15";
        int port = 3300;
        String authUsername = "admin";
        String uuid = "40b3f216-36b5-11ed-9357-9b4e21b0ed91";
        int devId = 2;

        DiskDef diskdef = new DiskDef();
        diskdef.defNetworkBasedDisk(path, host, port, authUsername,
                uuid, devId, DiskDef.DiskBus.VIRTIO, DiskDef.DiskProtocol.RBD, DiskDef.DiskFmtType.RAW);

        assertEquals(path, diskdef.getDiskPath());
        assertEquals(DiskDef.DiskType.NETWORK, diskdef.getDiskType());
        assertEquals(DiskDef.DiskFmtType.RAW, diskdef.getDiskFormatType());

        String expected = "<disk  device='disk' type='network'>\n" +
                "<driver name='qemu' type='raw' cache='none' />\n" +
                "<source  protocol='rbd' name='/mnt/primary1'>\n" +
                "<host name='10.11.12.13' port='3300'/>\n" +
                "<host name='10.11.12.14' port='3300'/>\n" +
                "<host name='10.11.12.15' port='3300'/>\n" +
                "</source>\n" +
                "<auth username='admin'>\n" +
                "<secret type='ceph' uuid='40b3f216-36b5-11ed-9357-9b4e21b0ed91'/>\n" +
                "</auth>\n" +
                "<target dev='vdc' bus='virtio'/>\n" +
                "</disk>\n";

        assertEquals(expected, diskdef.toString());
    }

    @Test
    public void testDiskDefWithMultipleHostsIpv6() {
        String path = "/mnt/primary1";
        String host = "[fc00:1234::1],[fc00:1234::2],[fc00:1234::3]";
        int port = 3300;
        String authUsername = "admin";
        String uuid = "40b3f216-36b5-11ed-9357-9b4e21b0ed91";
        int devId = 2;

        DiskDef diskdef = new DiskDef();
        diskdef.defNetworkBasedDisk(path, host, port, authUsername,
                uuid, devId, DiskDef.DiskBus.VIRTIO, DiskDef.DiskProtocol.RBD, DiskDef.DiskFmtType.RAW);

        assertEquals(path, diskdef.getDiskPath());
        assertEquals(DiskDef.DiskType.NETWORK, diskdef.getDiskType());
        assertEquals(DiskDef.DiskFmtType.RAW, diskdef.getDiskFormatType());

        String expected = "<disk  device='disk' type='network'>\n" +
                "<driver name='qemu' type='raw' cache='none' />\n" +
                "<source  protocol='rbd' name='/mnt/primary1'>\n" +
                "<host name='fc00:1234::1' port='3300'/>\n" +
                "<host name='fc00:1234::2' port='3300'/>\n" +
                "<host name='fc00:1234::3' port='3300'/>\n" +
                "</source>\n" +
                "<auth username='admin'>\n" +
                "<secret type='ceph' uuid='40b3f216-36b5-11ed-9357-9b4e21b0ed91'/>\n" +
                "</auth>\n" +
                "<target dev='vdc' bus='virtio'/>\n" +
                "</disk>\n";

        assertEquals(expected, diskdef.toString());
    }

    @Test
    public void testDiskDefWithBurst() {
        String filePath = "/var/lib/libvirt/images/disk.qcow2";
        String diskLabel = "vda";

        DiskDef disk = new DiskDef();
        DiskDef.DiskBus bus = DiskDef.DiskBus.VIRTIO;
        DiskDef.DiskFmtType type = DiskDef.DiskFmtType.QCOW2;
        disk.defFileBasedDisk(filePath, diskLabel, bus, type);


        Long iopsReadRate = 500L;
        Long iopsReadRateMax = 2000L;
        Long iopsReadRateMaxLength = 120L;
        Long iopsWriteRate = 501L;
        Long iopsWriteRateMax = 2001L;
        Long iopsWriteRateMaxLength = 121L;
        Long bytesReadRate = 1000L;
        Long bytesReadRateMax = 2500L;
        Long bytesReadRateMaxLength = 122L;
        Long bytesWriteRate = 1001L;
        Long bytesWriteRateMax = 2501L;
        Long bytesWriteRateMaxLength = 123L;


        disk.setIopsReadRate(iopsReadRate);
        disk.setIopsReadRateMax(iopsReadRateMax);
        disk.setIopsReadRateMaxLength(iopsReadRateMaxLength);
        disk.setIopsWriteRate(iopsWriteRate);
        disk.setIopsWriteRateMax(iopsWriteRateMax);
        disk.setIopsWriteRateMaxLength(iopsWriteRateMaxLength);
        disk.setBytesReadRate(bytesReadRate);
        disk.setBytesReadRateMax(bytesReadRateMax);
        disk.setBytesReadRateMaxLength(bytesReadRateMaxLength);
        disk.setBytesWriteRate(bytesWriteRate);
        disk.setBytesWriteRateMax(bytesWriteRateMax);
        disk.setBytesWriteRateMaxLength(bytesWriteRateMaxLength);

        LibvirtVMDef.setGlobalQemuVersion(2006000L);
        LibvirtVMDef.setGlobalLibvirtVersion(9008L);

        String xmlDef = disk.toString();
        String expectedXml = "<disk  device='disk' type='file'>\n<driver name='qemu' type='" + type.toString() + "' cache='none' />\n" +
                "<source file='" + filePath + "'/>\n<target dev='" + diskLabel + "' bus='" + bus.toString() + "'/>\n" +
                "<iotune>\n<read_bytes_sec>"+bytesReadRate+"</read_bytes_sec>\n<write_bytes_sec>"+bytesWriteRate+"</write_bytes_sec>\n" +
                "<read_iops_sec>"+iopsReadRate+"</read_iops_sec>\n<write_iops_sec>"+iopsWriteRate+"</write_iops_sec>\n" +
                "<read_bytes_sec_max>"+bytesReadRateMax+"</read_bytes_sec_max>\n<write_bytes_sec_max>"+bytesWriteRateMax+"</write_bytes_sec_max>\n" +
                "<read_iops_sec_max>"+iopsReadRateMax+"</read_iops_sec_max>\n<write_iops_sec_max>"+iopsWriteRateMax+"</write_iops_sec_max>\n" +
                "<read_bytes_sec_max_length>"+bytesReadRateMaxLength+"</read_bytes_sec_max_length>\n<write_bytes_sec_max_length>"+bytesWriteRateMaxLength+"</write_bytes_sec_max_length>\n" +
                "<read_iops_sec_max_length>"+iopsReadRateMaxLength+"</read_iops_sec_max_length>\n<write_iops_sec_max_length>"+iopsWriteRateMaxLength+"</write_iops_sec_max_length>\n</iotune>\n</disk>\n";

                assertEquals(expectedXml, xmlDef);
    }

    @Test
    public void memBalloonDefTestNone() {
        String expectedXml = "<memballoon model='none'>\n</memballoon>";
        MemBalloonDef memBalloonDef = new MemBalloonDef();
        memBalloonDef.defNoneMemBalloon();

        String xmlDef = memBalloonDef.toString();

        assertEquals(expectedXml, xmlDef);
    }

    @Test
    public void memBalloonDefTestVirtio() {
        String expectedXml = "<memballoon model='virtio'>\n<stats period='60'/>\n</memballoon>";
        MemBalloonDef memBalloonDef = new MemBalloonDef();
        memBalloonDef.defVirtioMemBalloon("60");

        String xmlDef = memBalloonDef.toString();

        assertEquals(expectedXml, xmlDef);
    }

    @Test
    public void testHypervEnlightDef() {
        LibvirtVMDef.FeaturesDef featuresDef = new LibvirtVMDef.FeaturesDef();
        LibvirtVMDef.HyperVEnlightenmentFeatureDef hyperVEnlightenmentFeatureDef = new LibvirtVMDef.HyperVEnlightenmentFeatureDef();
        hyperVEnlightenmentFeatureDef.setFeature("relaxed", true);
        hyperVEnlightenmentFeatureDef.setFeature("vapic", true);
        hyperVEnlightenmentFeatureDef.setFeature("spinlocks", true);
        hyperVEnlightenmentFeatureDef.setRetries(8096);
        featuresDef.addHyperVFeature(hyperVEnlightenmentFeatureDef);
        String defs = featuresDef.toString();
        assertTrue(defs.contains("relaxed"));
        assertTrue(defs.contains("vapic"));
        assertTrue(defs.contains("spinlocks"));

        featuresDef = new LibvirtVMDef.FeaturesDef();
        featuresDef.addFeatures("pae");
        defs = featuresDef.toString();
        assertFalse(defs.contains("relaxed"));
        assertFalse(defs.contains("vapic"));
        assertFalse(defs.contains("spinlocks"));
        assertTrue("Windows PV".contains("Windows PV"));

    }

    @Test
    public void testRngDef() {
        LibvirtVMDef.RngDef.RngBackendModel backendModel = LibvirtVMDef.RngDef.RngBackendModel.RANDOM;
        String path = "/dev/random";
        int period = 2000;
        int bytes = 2048;

        LibvirtVMDef.RngDef def = new LibvirtVMDef.RngDef(path, backendModel, bytes, period);
        assertEquals(path, def.getPath());
        assertEquals(backendModel, def.getRngBackendModel());
        assertEquals(LibvirtVMDef.RngDef.RngModel.VIRTIO, def.getRngModel());
        assertEquals(bytes, def.getRngRateBytes());
        assertEquals(period, def.getRngRatePeriod());
    }

    @Test
    public void testChannelDef() {
        ChannelDef.ChannelType type = ChannelDef.ChannelType.UNIX;
        ChannelDef.ChannelState state = ChannelDef.ChannelState.CONNECTED;
        String name = "v-136-VM.org.qemu.guest_agent.0";
        File path = new File("/var/lib/libvirt/qemu/" + name);

        ChannelDef channelDef = new ChannelDef(name, type, state, path);

        assertEquals(state, channelDef.getChannelState());
        assertEquals(type, channelDef.getChannelType());
        assertEquals(name, channelDef.getName());
        assertEquals(path, channelDef.getPath());
    }

    @Test
    public void testWatchDogDef() {
        LibvirtVMDef.WatchDogDef.WatchDogModel model = LibvirtVMDef.WatchDogDef.WatchDogModel.I6300ESB;
        LibvirtVMDef.WatchDogDef.WatchDogAction action = LibvirtVMDef.WatchDogDef.WatchDogAction.RESET;

        LibvirtVMDef.WatchDogDef def = new LibvirtVMDef.WatchDogDef(action, model);
        assertEquals(model, def.getModel());
        assertEquals(action, def.getAction());
    }

    @Test
    public void testSCSIDef() {
        SCSIDef def = new SCSIDef((short)0, 0, 0, 9, 0, 4);
        String str = def.toString();
        String expected = "<controller type='scsi' index='0' model='virtio-scsi'>\n" +
                "<address type='pci' domain='0x0000' bus='0x00' slot='0x09' function='0x0'/>\n" +
                "<driver queues='4'/>\n" +
                "</controller>\n";
        assertEquals(expected, str);
    }

    @Test
    public void testTopology() {
        LibvirtVMDef.CpuModeDef cpuModeDef = new LibvirtVMDef.CpuModeDef();
        cpuModeDef.setTopology(2, 1, 4);
        assertEquals("<cpu><topology sockets='4' cores='2' threads='1' /></cpu>", cpuModeDef.toString());
    }

    public void testTopologyNoInfo() {
        LibvirtVMDef.CpuModeDef cpuModeDef = new LibvirtVMDef.CpuModeDef();
        cpuModeDef.setTopology(-1, -1, 4);
        assertEquals("<cpu></cpu>", cpuModeDef.toString());
    }
}
